The following questions refer to the circuit shown in the figure, consisting of two flashlight batteries and two Nichrome wires of different lengths and different thicknesses as shown (corresponding roughly to your own thick and thin Nichrome wires). The thin wire is 50 cm long, an its diameter is 0.25 mm. The thick wire is 15 cm long, and its diameter is 0.35 mm. (a) The emf of each flashlight battery is 1.5 volts. Determine the steady-state electric field inside each Nichrome wire. Remember that in the steady state you must satisfy both the current node rule and energy conservation. These two principles give you two equations for the two unknown fields. E inside thin wire E inside thick wire= V/m V/m (b) The electron mobility room-temperature Nichrome is about 7 x 105 (m/s)/(N/C). How long (in minutes) does it take an electron to drift through the two Nichrome wires from location B to location A? min (c) On the other hand, about how long did it take to establish the steady state when the circuit was first assembled? Give an approximate, not precise numerical answer. (d) There are about 9 x 1028 mobile electrons per cubic meter in Nichrome. How many electrons cross the junction between the two wires every second? electrons/s

The following questions refer to the circuit shown in the figure, consisting of two flashlight batteries and two Nichrome wires of different lengths and different thicknesses as shown (corresponding roughly to your own thick and thin Nichrome wires). The thin wire is 50 cm long, an its diameter is 0.25 mm. The thick wire is 15 cm long, and its diameter is 0.35 mm. (a) The emf of each flashlight battery is 1.5 volts. Determine the steady-state electric field inside each Nichrome wire. Remember that in the steady state you must satisfy both the current node rule and energy conservation. These two principles give you two equations for the two unknown fields. E inside thin wire E inside thick wire= V/m V/m (b) The electron mobility room-temperature Nichrome is about 7 x 105 (m/s)/(N/C). How long (in minutes) does it take an electron to drift through the two Nichrome wires from location B to location A? min (c) On the other hand, about how long did it take to establish the steady state when the circuit was first assembled? Give an approximate, not precise numerical answer. (d) There are about 9 x 1028 mobile electrons per cubic meter in Nichrome. How many electrons cross the junction between the two wires every second? electrons/s

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